Fingerprint recognition module, electronic device employing same, and method for manufacturing sound wave control member therefor

1. A module for detecting a fingerprint, the module comprising: a contact member with which a fingerprint makes contact; a transducer configured to output an ultrasonic signal to the contact member and receive the ultrasonic signal reflected from the contact member; an impedance matching member charged between the contact member and the transducer, to transmit the ultrasonic signal between the contact member and the transducer; an acoustic control member inserted between the contact member and the transducer, the impedance matching member being charged inside of the acoustic control member; a hole penetrating the acoustic control member; and a signal processor electrically contacted with the transducer and configured to sense the fingerprint based on the received ultrasonic signal, wherein the hole comprises: a first signal transmitting groove formed on an upper portion of the acoustic control member, the upper portion facing the contact member; a second signal transmitting groove formed on a lower portion of the acoustic control member, the lower portion facing the transducer; and a connecting line connecting the first signal transmitting groove with the second signal transmitting groove to penetrate the acoustic control member from the upper portion to the lower portion.

2. The module of claim 1 , wherein the impedance matching member comprises: a first matching member charged to the acoustic control member; and a second matching member charged between the contact member and the acoustic control member, or between the acoustic control member and the transducer.

3. The module of claim 1 , wherein the impedance matching member is charged to the first signal transmitting groove, the second signal transmitting groove and the connecting line.

4. An electronic device comprising: a detecting module comprising: a contact member with which a fingerprint makes contact; a transducer configured to output an ultrasonic signal to the contact member and receive the ultrasonic signal reflected from the contact member; an impedance matching member charged between the contact member and the transducer, to transmit the ultrasonic signal between the contact member and the transducer; an acoustic control member inserted between the contact member and the transducer, the impedance matching member being charged inside of the acoustic control member; a hole penetrating the acoustic control member; and a signal processor electrically contacted with the transducer, and configured to control the transducer and detect the fingerprint based on the received ultrasonic signal; a converting controller connected with the signal processor and configured to convert a signal detected by the signal processor and transmit the converted signal; and a main controller connected with the converting controller and configured to control the detecting module based on the converted signal, wherein the hole comprises: a first signal transmitting groove formed on an upper portion of the acoustic control member, the upper portion facing the contact member; a second signal transmitting groove formed on a lower portion of the acoustic control member, the lower portion facing the transducer; and a connecting line connecting the first signal transmitting groove with the second signal transmitting groove to penetrate the acoustic control member from the upper portion to the lower portion.

5. A method for manufacturing an acoustic control member, the method comprising: a first etching step in which a first member is etched to form a first signal transmitting groove; a second etching step in which a second member is etched to form a connecting line; a third etching step in which a third member is etched to form a second signal transmitting groove; a first bonding step in which the first member is bonded with the second member via a first bonding member; a second bonding step in which the second member is bonded with the third member via a second bonding member; and a matching charging step in which an impedance matching member is charged to the first signal transmitting groove, the second signal transmitting groove and the connecting line.

6. The method of claim 5 , wherein in the first etching step, the first member is etched to further form the connecting line partially.

7. The method of claim 5 , wherein in the third etching step, the third member is etched to further form the connecting line partially.

8. The method of claim 5 , wherein in the second etching step, the second member is etched to further form a buffer space having a diameter different from the connecting line.

9. The method of claim 5 , the method further comprising: a fourth etching step in which a fourth member is etched to further form a buffer space having a diameter different from the connecting line; and a third bonding step in which the second member and the fourth member are alternately bonded with each other via the bonding member based on a position of the buffer space, wherein in the first bonding step, the first member is bonded on a first surface of a base member after the third bonding step, via the bonding member, wherein in the second bonding step, the third member is bonded on second surface of the base member after the third bonding step, via the bonding member.

10. A method for manufacturing an acoustic control member, the method comprising: a height determining step in which at least two stacked members are sequentially formed on a first surface of a base member; a hole forming step in which the base member and the stacked members are respectively etched based on a stacked order of the stacked members; a partially charging step in which an impedance matching member is charged to every portion etched in the hole forming step; and a finishing step in which the base member is etched to expose the impedance matching member through a second surface of the base member, wherein the height determining step, the hole forming step and the partially charging step are repeated according to a height of the acoustic control member.

11. The method of claim 10 , wherein the finishing step comprises: a manufacturing step in which the second surface of the base member is entirely etched to expose the impedance matching member.

12. The method of claim 10 , wherein the finishing step further comprises: a groove forming step in which a groove is formed on the second surface of the base member to expose the impedance matching member; and a final charging step in which the impedance matching member is charged to the groove formed in the groove forming step.